Physics 836: Problem Set 7 Due Wednesday, June 1 by 5PM
... 2. Consider a superconducting sphere of radius a in an applied magnetic field H. Suppose that the penetration depth λ ¿ a, so that the magnetic field can be regarded as excluded from the sphere. (a). Calculate the B field outside the sphere. Hint: use the magnetic scalar potential and also use Gauss ...
... 2. Consider a superconducting sphere of radius a in an applied magnetic field H. Suppose that the penetration depth λ ¿ a, so that the magnetic field can be regarded as excluded from the sphere. (a). Calculate the B field outside the sphere. Hint: use the magnetic scalar potential and also use Gauss ...
Honors physics Circuits and Magnetism Study Guide Textbook
... 1. Electric potential is defined as the electric potential __energy___ associated with a charged particle in an electric field divided by the ___charge_____ of the particle. 2. Since potential difference is measured in _____volts_______, it is often called ___voltage____. 3. Electric _____current___ ...
... 1. Electric potential is defined as the electric potential __energy___ associated with a charged particle in an electric field divided by the ___charge_____ of the particle. 2. Since potential difference is measured in _____volts_______, it is often called ___voltage____. 3. Electric _____current___ ...
Homework 3: Due in class on Monday, Oct 21st, 2013
... Find the eigenstates of HT LS = ~h~σ = hx σx + hy σy + hz σz in terms of hx , hy , hz , rather then in the spherical angles in the space of ~h. Calculate the vectors of Berry curvature corresponding to the |+i and |−i states, corresponding to the “spin” directed parallel and antiparallel to the fiel ...
... Find the eigenstates of HT LS = ~h~σ = hx σx + hy σy + hz σz in terms of hx , hy , hz , rather then in the spherical angles in the space of ~h. Calculate the vectors of Berry curvature corresponding to the |+i and |−i states, corresponding to the “spin” directed parallel and antiparallel to the fiel ...
Construction of a Small Cyclotron
... A cyclotron is being constructed at Houghton College. The cyclotron consists of a 17.2 cm diameter, 3.9 cm thick evacuated chamber containing a hollow “dee” shaped electrode and a “dummy” electrode placed between the poles of a 1.1 T electromagnet. Low pressure gas will be released into the chamber ...
... A cyclotron is being constructed at Houghton College. The cyclotron consists of a 17.2 cm diameter, 3.9 cm thick evacuated chamber containing a hollow “dee” shaped electrode and a “dummy” electrode placed between the poles of a 1.1 T electromagnet. Low pressure gas will be released into the chamber ...
Electric Fields and Potential
... of charge present At any point in field, potential is same, regardless how much charge is present ...
... of charge present At any point in field, potential is same, regardless how much charge is present ...
Intro to EMR and Wave Equation
... •In a vacuum, all EMR travel at the speed of light regardless of frequency •19th century physics theory said all waves had to travel through something, the medium that EMR moved was called the ether (a transparent substance that filled all space) •Experiments were done to measure the speed of light ...
... •In a vacuum, all EMR travel at the speed of light regardless of frequency •19th century physics theory said all waves had to travel through something, the medium that EMR moved was called the ether (a transparent substance that filled all space) •Experiments were done to measure the speed of light ...
Quantum Mechanics
... a. Using that d3 ~rψλ∗ ψλ0 = δλ,λ0 , obtain an integral expression for Eλ , in terms of ψλ , ~ λ , their conjugates and V (~r), but no higher derivatives. Show that Eλ ≥ 0. ...
... a. Using that d3 ~rψλ∗ ψλ0 = δλ,λ0 , obtain an integral expression for Eλ , in terms of ψλ , ~ λ , their conjugates and V (~r), but no higher derivatives. Show that Eλ ≥ 0. ...
Topics covered in PH112 - Rose
... Electric potential energy, U Electric potential, V Work done by electric field Finding V from E Finding E from V ...
... Electric potential energy, U Electric potential, V Work done by electric field Finding V from E Finding E from V ...
interference
... electromagnetic wave. If the electric charge is accelerated in periodic motion, the frequency of the electromagnetic waves produced is exactly equal to the frequency of oscillation of the charge. All electromagnetic waves travel through a vacuum at a common speed (c= 3.0 x 108 m/s), and obey the uni ...
... electromagnetic wave. If the electric charge is accelerated in periodic motion, the frequency of the electromagnetic waves produced is exactly equal to the frequency of oscillation of the charge. All electromagnetic waves travel through a vacuum at a common speed (c= 3.0 x 108 m/s), and obey the uni ...
3-Axis Trifield Broadband Meter
... The Trifield Broadband Meter (TFBB-100XE) is a Gaussmeter, Electric Field Meter, and Radio Field Strength meter in a single until. When measuring electromagnetic fields (EMF’s), the primary concern is usually magnetic fields, which can be tricky to measure. If a less sophisticated 1-axis gaussmeter ...
... The Trifield Broadband Meter (TFBB-100XE) is a Gaussmeter, Electric Field Meter, and Radio Field Strength meter in a single until. When measuring electromagnetic fields (EMF’s), the primary concern is usually magnetic fields, which can be tricky to measure. If a less sophisticated 1-axis gaussmeter ...